The Practice of British Geology, 1750-1850


Book Description

Geology is the most historical of all sciences. Yet its own history remains neglected, especially the many aspects of how geology was practised in the past. This volume analyses the careers of some important practical figures in English, Welsh, Scottish and Irish geology between 1750 and 1850. These include people who would have regarded themselves more as mining engineers (or ’coal viewers' as they were then called in the vital coal industry) or ’mineral surveyors' as today's mineral prospectors were first called (from 1808), or even inventors. Their expertise, in the land which led the industrial revolution, took them all over the world. Those included here went to Italy, and South (Peru) and North America (Virginia and Canada). The practice of geology, through the search for mines and minerals, has been much less attended to by historians than the geology which was undertaken by leisured amateurs - even though practical geology was as important in the past as the oil industry is today.




The Practice of British Geology, 1750-1850


Book Description

Geology is the most historical of all sciences. Yet its own history remains neglected, especially the many aspects of how geology was practised in the past. This volume analyses the careers of some important practical figures in English, Welsh, Scottish and Irish geology between 1750 and 1850. These include people who would have regarded themselves more as mining engineers (or 'coal viewers' as they were then called in the vital coal industry) or 'mineral surveyors' as today's mineral prospectors were first called (from 1808), or even inventors. Their expertise, in the land which led the industrial revolution, took them all over the world. Those included here went to Italy, and South (Peru) and North America (Virginia and Canada). The practice of geology, through the search for mines and minerals, has been much less attended to by historians than the geology which was undertaken by leisured amateurs - even though practical geology was as important in the past as the oil industry is today.




The World in a Crucible


Book Description

Geology coalesced as a discipline in the early part of the nineteenth century, with the coming together of many strands of investigation and thought. The theme of experimentation and/or instrument-aided observation is absent from most recent accounts of that time, which rely on an admixture of theory and field observations, informed by close examination of minerals. James Hutton emerged as the person who had it right with suggestion of a central heat source for Earth, while Abraham Gottlob Werner and his Neptunist supporters were derided as being blinded by overarching belief, as opposed to sober application of observed facts. However, despite several claims that Hutton had won the day, primary literature from both England and the Continent reveals that the question was by no means settled for decades after Hutton derided information derived from "looking into a little crucible." This Special Paper makes the case that it was just those parameters of heat, pressure, solution, and composition discovered in the laboratory that prevented resolution of the overriding questions about rock origin.




Scientific Institutions and Practice in France and Britain, c.1700–c.1870


Book Description

This second collection of studies by Maurice Crosland has as a first theme the differences in the style and organisation of scientific activity in Britain and France in the 18th and early 19th centuries. Science was more closely controlled in France, notably by the Paris Academy of Sciences, and the work of provincial amateurs much less prominent than in Britain. The most dramatic change in any branch of science during this period was in chemistry, largely through the work of Lavoisier and his colleagues, the focus of several articles here, and the dominance of this group caused considerable resentment outside France, not least by Joseph Priestley. The issue of authority in science emerges again, within France under the rule of Napoleon, in a study of the exceptional power exercised by the great mathematician Laplace both in theoretical science and in academic politics. This exploration of organisation and power is complemented by a comparative study of the practice of early 'physics' and chemistry and their different reliance on laboratories. This raises the question of whether chemistry provided a model for later experimental work in other sciences, both through the construction of pioneering laboratories and in establishing early schools of research.




Whatever is Under the Earth the Geological Society of London 1807-2007


Book Description

The Geological Society has much to be proud of in its two hundred years of history. Not only is it the oldest society of its kind in the world, but it has also seen many of the important developments in the science played out within its premises. Gordon Herries Davies has expertly and entertainingly laid out this narrative for us, steering a skilful course between the necessary facts and the anecdotes that bring these facts alive. Institutional histories can be dull affairs - a litany of minutes and memoranda - but this history suffers from no such problem. This book will appeal to the historian of science, geoscientists in all branches of the subject and anyone with an interest in the development of scientific ideas in the nineteenth and twentieth centuries.




The Earth on Show


Book Description

At the turn of the nineteenth century, geology—and its claims that the earth had a long and colorful prehuman history—was widely dismissedasdangerous nonsense. But just fifty years later, it was the most celebrated of Victorian sciences. Ralph O’Connor tracks the astonishing growth of geology’s prestige in Britain, exploring how a new geohistory far more alluring than the standard six days of Creation was assembled and sold to the wider Bible-reading public. Shrewd science-writers, O’Connor shows, marketed spectacular visions of past worlds, piquing the public imagination with glimpses of man-eating mammoths, talking dinosaurs, and sea-dragons spawned by Satan himself. These authors—including men of science, women, clergymen, biblical literalists, hack writers, blackmailers, and prophets—borrowed freely from the Bible, modern poetry, and the urban entertainment industry, creating new forms of literature in order to transport their readers into a vanished and alien past. In exploring the use of poetry and spectacle in the promotion of popular science, O’Connor proves that geology’s success owed much to the literary techniques of its authors. An innovative blend of the history of science, literary criticism, book history, and visual culture, The Earth on Show rethinks the relationship between science and literature in the nineteenth century.







Bursting the Limits of Time


Book Description

In 1650, Archbishop James Ussher of Armagh joined the long-running theological debate on the age of the earth by famously announcing that creation had occurred on October 23, 4004 B.C. Although widely challenged during the Enlightenment, this belief in a six-thousand-year-old planet was only laid to rest during a revolution of discovery in the late eighteenth and early nineteenth centuries. In this relatively brief period, geologists reconstructed the immensely long history of the earth-and the relatively recent arrival of human life. Highlighting a discovery that radically altered existing perceptions of a human's place in the universe as much as the theories of Copernicus, Darwin, and Freud did, Bursting the Limits of Time is a herculean effort by one of the world's foremost experts on the history of geology and paleontology to sketch this historicization of the natural world in the age of revolution. Addressing this intellectual revolution for the first time, Rudwick examines the ideas and practices of earth scientists throughout the Western world to show how the story of what we now call "deep time" was pieced together. He explores who was responsible for the discovery of the earth's history, refutes the concept of a rift between science and religion in dating the earth, and details how the study of the history of the earth helped define a new branch of science called geology. Rooting his analysis in a detailed study of primary sources, Rudwick emphasizes the lasting importance of field- and museum-based research of the eighteenth and nineteenth centuries. Bursting the Limits of Time, the culmination of more than three decades of research, is the first detailed account of this monumental phase in the history of science.




Evolutionary Naturalism in Victorian Britain


Book Description

Scholars have tended to portray T.H. Huxley, John Tyndall, and their allies as the dominant cultural authority in the second half of the 19th century. Defenders of Darwin and his theory of evolution, these men of science are often seen as a potent force for the secularization of British intellectual and social life. In this collection of essays Bernard Lightman argues that historians have exaggerated the power of scientific naturalism to undermine the role of religion in middle and late-Victorian Britain. The essays deal with the evolutionary naturalists, especially the biologist Thomas Henry Huxley, the physicist John Tyndall, and the philosopher of evolution, Herbert Spencer. But they look also at those who criticized this influential group of elite intellectuals, including aristocratic spokesman A. J Balfour, the novelist Samuel Butler, and the popularizer of science Frank Buckland. Focusing on the theme of the limitations of the cultural power of evolutionary naturalism, the volume points to the enduring strength of religion in Britain in the latter half of the 19th century.




Charles Darwin, Geologist


Book Description

"Pleasure of imagination.... I a geologist have illdefined notion of land covered with ocean, former animals, slow force cracking surface &c truly poetical."--from Charles Darwin's Notebook M, 1838 The early nineteenth century was a golden age for the study of geology. New discoveries in the field were greeted with the same enthusiasm reserved today for advances in the biomedical sciences. In her long-awaited account of Charles Darwin's intellectual development, Sandra Herbert focuses on his geological training, research, and thought, asking both how geology influenced Darwin and how Darwin influenced the science. Elegantly written, extensively illustrated, and informed by the author's prodigious research in Darwin's papers and in the nineteenth-century history of earth sciences, Charles Darwin, Geologist provides a fresh perspective on the life and accomplishments of this exemplary thinker. As Herbert reveals, Darwin's great ambition as a young scientist--one he only partially realized--was to create a "simple" geology based on movements of the earth's crust. (Only one part of his scheme has survived in close to the form in which he imagined it: a theory explaining the structure and distribution of coral reefs.) Darwin collected geological specimens and took extensive notes on geology during all of his travels. His grand adventure as a geologist took place during the circumnavigation of the earth by H.M.S. Beagle (1831-1836)--the same voyage that informed his magnum opus, On the Origin of Species. Upon his return to England it was his geological findings that first excited scientific and public opinion. Geologists, including Darwin's former teachers, proved a receptive audience, the British government sponsored publication of his research, and the general public welcomed his discoveries about the earth's crust. Because of ill health, Darwin's years as a geological traveler ended much too soon: his last major geological fieldwork took place in Wales when he was only thirty-three. However, the experience had been transformative: the methods and hypotheses of Victorian-era geology, Herbert suggests, profoundly shaped Darwin's mind and his scientific methods as he worked toward a full-blown understanding of evolution and natural selection.